FreeCalypso > hg > freecalypso-docs
comparison FC-handset-spec @ 64:6b02de926277
FC-handset-spec section 1.7.1: mention Pirelli DP-L10
| author | Mychaela Falconia <falcon@freecalypso.org> |
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| date | Tue, 15 Jun 2021 19:28:52 +0000 |
| parents | 4389cd2b9d02 |
| children | 153b517ccc7a |
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| 479 | 479 |
| 480 1.7.1. Earpiece and loudspeaker separation | 480 1.7.1. Earpiece and loudspeaker separation |
| 481 | 481 |
| 482 Most current mainstream phones (in fact, all that I am familiar with) have | 482 Most current mainstream phones (in fact, all that I am familiar with) have |
| 483 physically separate speaker transducers for the earpiece function (hold up to | 483 physically separate speaker transducers for the earpiece function (hold up to |
| 484 ear to talk) and the loudspeaker+ringer function. The earpiece speaker is a 32 | 484 ear to talk) and the loudspeaker+ringer function. The not-so-current and not- |
| 485 ohm load, and the loudspeaker is an 8 ohm load. In a Calypso+Iota design, an | 485 so-mainstream Pirelli DP-L10 also features the same arrangement. The earpiece |
| 486 external amplifier chip is needed to drive the 8 ohm loudspeaker, whereas the | 486 speaker is a 32 ohm load, and the loudspeaker is an 8 ohm load. In a |
| 487 little 32 ohm earpiece speaker can be driven directly by Iota EAR output. | 487 Calypso+Iota design, an external amplifier chip is needed to drive the 8 ohm |
| 488 loudspeaker, whereas the little 32 ohm earpiece speaker can be driven directly | |
| 489 by Iota EAR output. | |
| 488 | 490 |
| 489 However, a very different design was implemented by TI on their D-Sample and | 491 However, a very different design was implemented by TI on their D-Sample and |
| 490 Leonardo boards. They have only one speaker, one of 8 ohm kind, that is | 492 Leonardo boards. They have only one speaker, one of 8 ohm kind, that is |
| 491 physically mounted in the position where the earpiece speaker would normally go. | 493 physically mounted in the position where the earpiece speaker would normally go. |
| 492 In order to not overwhelm the user's ear in handheld operation, they have | 494 In order to not overwhelm the user's ear in handheld operation, they have |
| 505 | 507 |
| 506 For our own FC Libre Dumbphone, I am going with the separate speakers | 508 For our own FC Libre Dumbphone, I am going with the separate speakers |
| 507 architecture, using physically separate earpiece and loudspeaker transducers. | 509 architecture, using physically separate earpiece and loudspeaker transducers. |
| 508 This architecture feels more native to me, and it will allow for independent | 510 This architecture feels more native to me, and it will allow for independent |
| 509 tuning of the two audio paths. In my defense, all current mainstream phones | 511 tuning of the two audio paths. In my defense, all current mainstream phones |
| 510 seem to use the same architecture - the other approach with a single loudspeaker | 512 seem to use the same architecture, and so does the Pirelli phone that serves as |
| 511 in the earpiece physical position seems very uncommon. | 513 my personal reference - the other approach with a single loudspeaker in the |
| 514 earpiece physical position seems very uncommon. | |
| 512 | 515 |
| 513 1.7.2. Loudspeaker implementation | 516 1.7.2. Loudspeaker implementation |
| 514 | 517 |
| 515 The external amplifier chip for driving the 8 ohm loudspeaker will be TI | 518 The external amplifier chip for driving the 8 ohm loudspeaker will be TI |
| 516 TPA6203A1, copied from Leonardo schematics and proven good on FCDEV3B. On | 519 TPA6203A1, copied from Leonardo schematics and proven good on FCDEV3B. On |